Radar parameters influence on the clutter in maritime forward scatter radar

Kabakchiev, K.; Daniel, Liam; Gashinova, Marina; Hoare, Edward; Cherniakov, M.; Sizov, V.

doi:10.1109/eurad.2014.6991220

Cited by 5 publications

(6 citation statements)

References 14 publications

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“…In (13) the variable states the rank and the missing rank is obtained by means of the orthogonal subspace of rank ( − 1) . In this way, the augmented matrix × can be redefined as (14).…”

Section: Hanning-weighted Window Function (Hwwf) Assisted Stft Formentioning

confidence: 99%

“…In (14), states a × ( − 1) matrix of orthonormal columns ranging the subspace orthogonal to the columns of . Considering the concept of identity matrix (I), we define ( 1 2 ) ′ 1 2 =…”

Section: Hanning-weighted Window Function (Hwwf) Assisted Stft Formentioning

confidence: 99%

“…This localized time-frequency analysis model is often known as Short Time Fourier Transform (STFT) which is also referred as Windowed Fourier Transform (WFT). The predominant feature of the STFT is the confine its time-frequency resolution ability, which is primarily contributed because of the uncertainty principle [14]. In practice, low frequencies are difficult to visualize with short windows, on contrary short pulses can efficiently be identified or detected timely with long windows.…”

Section: Introductionmentioning

confidence: 99%

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Hanning Weighted Window Analysis Assisted Time-Series Analysis Model for Slow Moving Target Detection in Sea Clutter

Rajesh¹,

Udayarani²,

Jayaramaiah³

2020

International Journal of Engineering Research and Technology

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The exponential rise in maritime movement, security threats from up-surging terrorism and smuggling has alarmed academia-industries to develop more efficient method for target detection in coastal area. This task becomes more complex and intricate in case of small moving target in seaclutter. Amongst the major available approaches such as multiple-radar based methods, wavelet analysis methods, Doppler measurements, Fourier transforms, Short Term Fourier Transform (STFT) based techniques, STFT has been found more robust. The ability to perform simultaneous time and frequency analysis for time-series assessment enables STFT to be used in small target detection in sea clutter; however the inherent limitations such as improper Windowing, window-size, number of samples, overlapping conditions affect overall performance. Considering it as motivation, in this paper we have developed an efficient Hanning Weighted Window Function (HWWF) model to be used in conjunction with STFT to perform Hanning-Weighted Overlapped Time-Series Analysis (HWOTSA) to detect slow moving target detection in sea clutter. The use of orthonormal transformation also called rotation enabled Hanning Window Analysis to use suitable STFT parameters and statistical test across the windows to achieve better accuracy of the target detection. HWOTSA assisted STFT in conjunction with the Probability Distribution Function Projection (PPM) over extracted features enabled accurate slow moving target detection in sea clutter. The MATLAB based simulation affirmed that the proposed method enables accurate and swift (slow) moving target detection in sea clutter, without introducing higher computational overheads and complexities. The estimation of Doppler measurement based target velocity estimation armour proposed method to be used in real-time applications for swift decision making.

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“…In (13) the variable states the rank and the missing rank is obtained by means of the orthogonal subspace of rank ( − 1) . In this way, the augmented matrix × can be redefined as (14).…”

Section: Hanning-weighted Window Function (Hwwf) Assisted Stft Formentioning

confidence: 99%

“…In (14), states a × ( − 1) matrix of orthonormal columns ranging the subspace orthogonal to the columns of . Considering the concept of identity matrix (I), we define ( 1 2 ) ′ 1 2 =…”

Section: Hanning-weighted Window Function (Hwwf) Assisted Stft Formentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Hanning Weighted Window Analysis Assisted Time-Series Analysis Model for Slow Moving Target Detection in Sea Clutter

Rajesh¹,

Udayarani²,

Jayaramaiah³

2020

International Journal of Engineering Research and Technology

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“…Here the target forward scatter cross section (FSCS) increases significantly compared with the monostatic and bistatic RCS and is resilient to stealth targets shaping and coatings [6]. Furthermore in FSR coherent times are long [7] and sea clutter has been shown to be well characterised by the Rayleigh distribution, unlike mono or bistatic low grazing angle clutter [8], and has a spectrum that appears invariant to radar and sea state parameters.…”

Section: Introductionmentioning

confidence: 99%

“…The FSR system is a multi-frequency continuous wave (CW) radar developed at the University of Birmingham and is used as part of an ongoing investigation into both target and clutter signatures in the maritime environment [5][6][7][8]. It consists of a single multi-frequency transmit node and a corresponding receive node.…”

Section: Radar Systemsmentioning

confidence: 99%

Simultaneous data collection of small maritime targets using multistatic radar and forward scatter radar

Ritchie¹,

Fioranelli²,

Woodbridge³

et al. 2017

IET Radar, Sonar & Navigation

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(2017) Simultaneous data collection of small maritime targets using multistatic and forward scatter radar. IET Radar, Sonar and Navigation, (doi:10.1049/ietrsn.2016.0526) This is the author's final accepted version.There may be differences between this version and the published version. You are advised to consult the publisher's version if you wish to cite from it.http://eprints.gla.ac.uk/138600/ AbstractRadar detection of small maritime targets is of great interest in the context of coastal and port security for prevention of activities such as smuggling and piracy. Multistatic radar and forward scatter radar offer detection advantages compared with conventional monostatic systems, such as advantageous multiperspective target view for the former and target radar cross section enhancement for the latter. In this paper, experimental results are presented to characterize simultaneous measurements investigating the detection of a small inflatable boat by a multistatic and a forward scatter radar. These results are believed to be the first example of simultaneous experimental comparison of such systems.

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